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CN103063628A - Excitation method for multiple fluorescent dyes - Google Patents

Excitation method for multiple fluorescent dyes Download PDF

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Publication number
CN103063628A
CN103063628A CN2012105387948A CN201210538794A CN103063628A CN 103063628 A CN103063628 A CN 103063628A CN 2012105387948 A CN2012105387948 A CN 2012105387948A CN 201210538794 A CN201210538794 A CN 201210538794A CN 103063628 A CN103063628 A CN 103063628A
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CN
China
Prior art keywords
laser beam
fluorescent dyes
monochromatic laser
wavelength
intensity
Prior art date
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Application number
CN2012105387948A
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Chinese (zh)
Inventor
陈学亮
李彬
张涛
贾二惠
庞晓东
赵怡鹤
赵颖
王守山
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
First Research Institute of Ministry of Public Security
Beijing Zhongdun Anmin Analysis Technology Co Ltd
Original Assignee
First Research Institute of Ministry of Public Security
Beijing Zhongdun Anmin Analysis Technology Co Ltd
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Priority to CN2012105387948A priority Critical patent/CN103063628A/en
Publication of CN103063628A publication Critical patent/CN103063628A/en
Pending legal-status Critical Current

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Abstract

The invention discloses an excitation method for multiple fluorescent dyes, which is used for exciting multiple fluorescent dyes. The total exciting light intensity required by the multiple fluorescent dyes is W, and the wavelengths of the optimal exciting light required by all the multiple fluorescent dyes are X, Y and the like. The multiple fluorescent dyes are excited by more than two kinds of monochrome laser beams, the total intensity of the more than two kinds of monochrome laser beams is W, and the wavelengths of the more than two kinds of monochrome laser beams are X, Y and the like. According to the excitation method, the multiple fluorescent dyes are excited by the more than two kinds of monochrome laser beams, and the cost of light sources is greatly reduced, so that the excitation cost of the fluorescent dyes is reduced, and the popularization and the application of a fluorescent dye excitation technology are facilitated.

Description

A kind of exciting method of many fluorescent dyes
Technical field
The present invention relates to fluorescent dye, especially relevant with exciting of many fluorescent dyes.
Background technology
Dna sequencing is the important technology in the modern molecular biology research, and the dna sequencing that carries out of automatic high speed is one of main target of this technology pursue.1986, Smith has proposed four look fluorescence labeling automatic sequencing methods: four kinds have the fluorochrome label of different emission by a series of termination fragments of polymerase chain reaction generation, after polyacrylamide or capillary electrophoresis separation, adopt laser that the fluorescence signal that the dna fragmentation that separates carries is excited, detect and record the fluorescence signal of different emission, machine is processed as calculated, obtains at last sequence information.Be based upon the detection analytical technology on the fluorescence basis, owing to have polychrome analysis, fast and use simple advantage, be widely used in the legal medical expert laboratory.At STR(Short Tandem Repeat, STR) during the dna typing of genetic marker is used, fluorescent dye and a PCR(PolymeraseChain Reaction, polymerase chain reaction) primer is connected, and fluorescent dye mixes the product of target DNA after the amplification.STR allele after the amplification is occurring with the form at peak with the form of bands of a spectrum or in electrophoresis pattern on the gel.
Difference between the fluorescent dye Absorption and emission spectra is known as Stokes shift (Stokes shift).Because the existence of Stokes shift can use optical filter that exciting light and utilizing emitted light are separated.Every kind of fluorescent dye has its specific absorption spectrum and emission spectrum, and suitable optical filter has been arranged, the fluorescent dye that just can carefully select those emission spectrum to be separated from each other.This specific character allows that the multiple fluorescent dye of use detects several different dna moleculars simultaneously, detects more a lot soon than monochromatic fluoroscopic examination with multicolor fluorescence.
The selection of best fluorescent dye need to consider fluorescent dye emission spectrum character and for detection of the performance of instrument between relation, and the radiative intensity of fluorescent dye directly depends on the light intensity of fluorescence excitation dyestuff, therefore, the light source of exciting light has very important impact to the use of fluorescent dye.Laser instrument is a kind of light source of effective emission exciting light, and argon ion (Ar+) laser instrument is widely used in exciting of the interior fluorescent dye of visible spectrum at present.Argon ion laser is gas laser, and the light wavelength of generation has a variety of, mainly is distributed between 480~520nm.These several wavelength that Argon ion laser produces light replenish mutually, and integral body has improved launching efficiency and the homogeneity of multiple fluorescent dye.But the volume of Argon ion laser is large, power consumption is large, and especially cost is very high, has therefore greatly improved the cost that fluorescent dye excites, and has increased user's financial burden, has a strong impact on promoting the use of of this technology.Solid state laser is made simple, with low cost, if can come the fluorescence excitation dyestuff with solid state laser, will greatly reduce the cost that excites of fluorescent dye.But present a kind of solid state laser can only be launched a kind of light of wavelength, the single wavelength of solid state laser is difficult to take into account simultaneously exciting of every kind of dyestuff when realizing the multicolor fluorescence excitation of spectra, therefore so that solid state laser be difficult to excite the field to promote the use of at fluorescent dye.
Summary of the invention
The bright purpose of we provide a kind of can with as the light beam launched of the cheap light source of solid state laser come the fluorescence excitation dyestuff, excite cost thereby greatly reduce fluorescent dye, the exciting method of many fluorescent dyes of the application popularization of strong promotion fluorescent dye shooting techniques.
For reaching above-mentioned purpose, the invention provides following technical scheme:
A kind of exciting method of many fluorescent dyes, be used for exciting a plurality of fluorescent dyes, the required total excitating light strength of described a plurality of fluorescent dye is W, each fluorescent dye separately required the best excites light wavelength to be respectively X, Y etc., adopt simultaneously two or more monochromatic laser beam jointly described a plurality of fluorescent dyes to be excited, the total intensity of described two or more monochromatic laser beam is W, and the wavelength of described two or more monochromatic laser beam is respectively X, Y etc.
Further, use solid state laser to launch described monochromatic laser beam.
Further, described a plurality of fluorescent dye is placed in the kapillary.
Further, described a plurality of fluorescent dye is respectively FAM, JOE, TAMRA, ROX and Cy5, described two or more monochromatic laser beam is respectively that wavelength is that monochromatic laser beam and the wavelength of 488 nanometers is the monochromatic laser beam of 514.5 nanometers, the total intensity of described two or more monochromatic laser beam is 25 milliwatts, described wavelength is that the intensity of the monochromatic laser beam of 488 nanometers is 10 ± 3 milliwatts, and described wavelength is that the intensity of the monochromatic laser beam of 514.5 nanometers is 15 ± 3 milliwatts.
Further, described wavelength is that the intensity of the monochromatic laser beam of 488 nanometers is 10 milliwatts, and described wavelength is that the intensity of the monochromatic laser beam of 514.5 nanometers is 15 milliwatts.
Further, described two or more monochromatic laser beam is closed bundle by the method for optical-fiber bundling.
The present invention compared with prior art has following significant progress:
1, the present invention uses two or more monochromatic laser beam jointly a plurality of fluorescent dyes to be excited simultaneously, can reach the same effect of using the combination of Argon ion laser multiwavelength laser that a plurality of fluorescent dyes are excited, because every kind of monochromatic laser beam all can obtain by solid state laser respectively, acquisition cost than the multiwavelength laser of Argon ion laser is low, therefore use two or more monochromatic laser beam that a plurality of fluorescent dyes are excited and greatly to reduce the light source cost, thereby reduce the cost that excites of fluorescent dye, be conducive to applying of fluorescent dye shooting techniques.
2, the present invention uses the combination of monochromatic laser beam of 514.5 nano wave lengths of the monochromatic laser beam of 488 nano wave lengths of 10 milliwatts and 15 milliwatts, simultaneously FAM, JOE, TAMRA, ROX and five kinds of fluorescent dyes of Cy5 are excited, realize that FAM, JOE, TAMRA, ROX and Cy5 detect simultaneously, and the unevenness of balance single wavelength fluorescence excitation dyestuff spectrum, improve spectral detection stability, can also adjust the energy distribution of combined laser beam, reduce fluorescence spectrum detect in to the degree of dependence of fluorescent dye concentration.
Description of drawings
Fig. 1 is for using the simultaneously structural representation of fluorescence excitation dyestuff of two kinds of monochromatic laser beam.
Description of reference numerals is as follows:
1 combined laser beam;
2 fluorescent dyes;
3 kapillaries;
The emission spectrum of 4 fluorescent dyes;
5 line array CCDs (Charge-Coupled Device, charge coupled cell);
6 solid state lasers;
7 computing machines;
8 optical-fiber bundling devices.
Embodiment
The present invention is further illustrated below in conjunction with accompanying drawing and specific embodiment, but protection scope of the present invention is not limited to this.
In biological identification technology, need to use the fluorescent dye material that serves as a mark, the spectral bandwidth of the fluorescent dye of finding at present and using is all more than 20nm, in fluorescent dye selection and composite design, in order to improve the detection flux, usually adopt many fluorochrome combinations to carry out the material property analysis.Because the wavelength of the absorption spectrum of different fluorescent dyes is different, the wavelength of the emission spectrum of corresponding stimulated emission is not identical yet, the unevenness that distributes in order to improve different fluorescent dye intensity of emission spectra, the present invention proposes a kind of method of using the many fluorescent dyes of two or more monochromatic laser beam shootings on group.In the method, be W at the required total excitating light strength of known a plurality of fluorescent dyes, each fluorescent dye separately required the best excites light wavelength to be respectively under the condition of X, Y etc., adopt simultaneously two or more monochromatic laser beam jointly above-mentioned a plurality of fluorescent dyes to be excited, the total intensity of these two or more monochromatic laser beam is W, and the wavelength of these two or more monochromatic laser beam is respectively X, Y etc.This method suitable medical, chemical, bio-pharmaceuticals, forensic analysis etc. relate to the field of the high flux trace analysis of capillary array analysis.
As shown in Figure 1, the present invention adopts two solid state lasers 6 to launch respectively two kinds of monochromatic laser beam, these two kinds of monochromatic laser beam through optical-fiber bundling devices close Shu Zuoyong after be combined as be used to the combined laser beam 1 that excites, a plurality of fluorescent dyes 2 are placed in the kapillary 3, combined laser beam 1 passes kapillary 3, and excite fluorescent dye 2 in the kapillary 3, the fluorescent dye 2 rear emission spectrum 4 that is stimulated is gathered by line array CCD 5, after line array CCD 5 is converted to electric signal with light signal, send to computing machine 7,7 pairs of these signals of computing machine are analyzed, and draw test result.At present, it is several that laser instrument generally comprises gas laser, liquid laser, solid state laser, semiconductor laser, free electron laser etc.Among the present invention, the cost of manufacture of solid state laser 6 is cheap, can greatly reduce the cost of many fluorescent dyes of the present invention exciting method, is convenient to applying of many fluorescent dyes shooting techniques.
Below by a specific embodiment many fluorescent dyes exciting method of the present invention is described in further detail.Because the dependence of fluorescent dye absorption spectrum and emission spectrum wants to find the laser instrument that excites simultaneously multiple fluorescent dye will at first obtain the absorption spectrum of this multiple fluorescent dye.The below describes as an example of FAM, JOE, TAMRA, ROX and five kinds of dyestuffs of Cy5 example.
When adopting separately 488 nanometer single wavelength laser instruments to excite above-mentioned five kinds of fluorescent dyes, FAM dyestuff excitation intensity changes little, and the excitation intensity of other four kinds of dyestuffs has all reduced.When adopting the above-mentioned five kinds of fluorescent dyes of 514.5 nanometer single wavelength laser instrument independent excitations separately, the FAM excitation intensity weakens very severe, and the Cy5 excitation intensity also weakens to some extent, and the excitation intensity of other three kinds of fluorescent dyes has all strengthened.When adopting the combination of 488 nano wave lengths and 514.5 nano wave length laser beam afterwards above-mentioned five kinds of fluorescent dyes to be excited, this two monochromatic laser beam can adopt optical-fiber bundling or other modes to close bundle, has reached combined effect.This two monochromatic laser beam is closed laser total intensity or 25 milliwatts (this intensity is the best excitation intensity of above-mentioned five kinds of fluorescent dye exciting lights) behind the bundle, but the intensity of 488 nano wave length monochromatic laser beam is 10 milliwatts, 514.5 the intensity of nano wave length monochromatic laser beam is 15 milliwatts, can obtain optimum effect to exciting of above-mentioned five kinds of fluorescent dyes this moment.With two solid state lasers with above-mentioned intensity combined transmit excitation beam, can realize exciting many fluorescent dyes, method of the present invention is applied in the STR detection, with solving to a great extent the problem that volume is large, price is high of bringing with the gas laser Emission Lasers at present, also can solve the many fluorescent dyes that bring with single solid state laser Emission Lasers simultaneously and excite inhomogeneous problem.
The present invention uses the combination of monochromatic laser beam of 514.5 nano wave lengths of the monochromatic laser beam of 488 nano wave lengths of 10 milliwatts and 15 milliwatts, simultaneously FAM, JOE, TAMRA, ROX and five kinds of fluorescent dyes of Cy5 are excited, realize that FAM, JOE, TAMRA, ROX and Cy5 detect simultaneously, and the unevenness of balance single wavelength fluorescence excitation dyestuff spectrum, improve spectral detection stability, can also adjust the energy distribution of combined laser beam, reduce fluorescence spectrum detect in to the degree of dependence of fluorescent dye concentration.
The present invention is not limited to above-mentioned embodiment, and in the situation that does not deviate from flesh and blood of the present invention, any distortion that it may occur to persons skilled in the art that, improvement, replacement all fall into scope of the present invention.

Claims (6)

1. the exciting method of fluorescent dye more than a kind, be used for exciting a plurality of fluorescent dyes, the required total excitating light strength of described a plurality of fluorescent dye is W, each fluorescent dye separately required the best excites light wavelength to be respectively X, Y etc., it is characterized in that, adopt simultaneously two or more monochromatic laser beam jointly described a plurality of fluorescent dyes to be excited, the total intensity of described two or more monochromatic laser beam is W, and the wavelength of described two or more monochromatic laser beam is respectively X, Y etc.
2. the exciting method of many fluorescent dyes according to claim 1 is characterized in that, uses solid state laser to launch described monochromatic laser beam.
3. the exciting method of many fluorescent dyes according to claim 1 is characterized in that, described a plurality of fluorescent dyes are placed in the kapillary.
4. the exciting method of many fluorescent dyes according to claim 1, it is characterized in that, described a plurality of fluorescent dye is respectively FAM, JOE, TAMRA, ROX and Cy5, described two or more monochromatic laser beam is respectively that wavelength is that monochromatic laser beam and the wavelength of 488 nanometers is the monochromatic laser beam of 514.5 nanometers, the total intensity of described two or more monochromatic laser beam is 25 milliwatts, described wavelength is that the intensity of the monochromatic laser beam of 488 nanometers is 10 ± 3 milliwatts, and described wavelength is that the intensity of the monochromatic laser beam of 514.5 nanometers is 15 ± 3 milliwatts.
5. the exciting method of many fluorescent dyes according to claim 4 is characterized in that, described wavelength is that the intensity of the monochromatic laser beam of 488 nanometers is 10 milliwatts, and described wavelength is that the intensity of the monochromatic laser beam of 514.5 nanometers is 15 milliwatts.
6. the exciting method of arbitrary described many fluorescent dyes is characterized in that according to claim 1-5, and described two or more monochromatic laser beam are closed bundle by the method for optical-fiber bundling.
CN2012105387948A 2012-12-13 2012-12-13 Excitation method for multiple fluorescent dyes Pending CN103063628A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113688643A (en) * 2020-05-19 2021-11-23 中国电子科技集团公司第十一研究所 Double-coding identity recognition system and method

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101419335A (en) * 2007-10-22 2009-04-29 泰肯贸易股份公司 Laser scanner device for fluorescence measurements
WO2009140757A1 (en) * 2008-05-20 2009-11-26 University Health Network Device and method for fluorescence-based imaging and monitoring
CN101617218A (en) * 2006-10-12 2009-12-30 埃佩多夫股份公司 The method and apparatus that is used for quantitative real time analysis of fluorescent samples
CN102411024A (en) * 2011-06-15 2012-04-11 公安部第一研究所 Capillary array electrophoresis detection method based on spatial correction and spectral correction
CN202196015U (en) * 2011-06-15 2012-04-18 公安部第一研究所 Capillary array electrophoresis detection device based on spectrum correction
CN102539397A (en) * 2010-11-11 2012-07-04 索尼公司 Fluorescent spectrum correcting method and fluorescent spectrum measuring device

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101617218A (en) * 2006-10-12 2009-12-30 埃佩多夫股份公司 The method and apparatus that is used for quantitative real time analysis of fluorescent samples
CN101419335A (en) * 2007-10-22 2009-04-29 泰肯贸易股份公司 Laser scanner device for fluorescence measurements
WO2009140757A1 (en) * 2008-05-20 2009-11-26 University Health Network Device and method for fluorescence-based imaging and monitoring
CN102099671A (en) * 2008-05-20 2011-06-15 大学健康网络 Device and method for fluorescence-based imaging and monitoring
CN102539397A (en) * 2010-11-11 2012-07-04 索尼公司 Fluorescent spectrum correcting method and fluorescent spectrum measuring device
CN102411024A (en) * 2011-06-15 2012-04-11 公安部第一研究所 Capillary array electrophoresis detection method based on spatial correction and spectral correction
CN202196015U (en) * 2011-06-15 2012-04-18 公安部第一研究所 Capillary array electrophoresis detection device based on spectrum correction

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113688643A (en) * 2020-05-19 2021-11-23 中国电子科技集团公司第十一研究所 Double-coding identity recognition system and method

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Application publication date: 20130424